AEGIS SUPERLED INSTALLATION INSTRUCTIONS INFRARED ILLUMINATOR
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AEGIS SUPERLED INSTALLATION INSTRUCTIONS 1. Description 2. Specification 3. Installation 4. Safety 5. Dimensions 6. Remote Switching 7. Trouble Shooting 8. Certification DIAGRAMS Fig 1. Fig 2. Fig 3. Fig 4. Fig 5. Fig 6. Fig 7. Fig 8. Installing the AEGIS SuperLED illuminator AEGIS SuperLED rear side view AEGIS SuperLED right side view Telemetry Input pin layout Camera Day/Night Output pin layout Adjustment of the photocell sensitivity Adjustment of the output power Dimensions BOX CONTAINS 1 x AEGIS SuperLED illuminator 1 x AEGIS SuperLED bracket 1 x AEGIS SuperLED Installation Instructions (this booklet) Whilst every effort has been made to ensure that all information contained in this document is correct at the time of publication, due to continuous product development Bosch reserves the right to change information herein without prior notice 3
1. DESCRIPTION A complete range of infrared illuminators for CCTV, the AEGIS SuperLED range features patent pending illumination technology and installation friendly design. Patent pending Constant Light technology automatically compensates for LED degradation to deliver a constant level of lighting performance for the life of the illuminator 3D Diffuser (Black Diamond) technology enables increased surveillance range, wider beam patterns and evenly illuminated night-time images Energy efficient, low voltage operation for quick and easy installation High efficiency surface mount LEDs deliver improved thermal management, long life and low cost of ownership Semi-covert and covert light versions Easy integration with day/night cameras with relay contacts COM/NC/NO that indicate whether the photocell has activated the illuminator Telemetry input connection (additional cable required) to allow illuminator to be switched via a voltage free relay contact from a day/night camera signal, remote signal or PIR. Pressure equalization valve removes the problem of thermal expansion and pressure cycling within the illuminator head 4
2. SPECIFICATION Illuminator LED s High efficiency Surface Mount LEDs with current limited integral circuit Beam patterns 10 o, 20 o, 30 o, 60 o, 95 o, 120 o Wavelength Average life Consumption Inrush current Input voltage Temp range 850nm or 940nm (model dependant) > 5 years 50-90W (90W Max Power) Power consumption will vary over time due to optical output control which compensates for LED degradation and ambient temperature fluctuations 8A 12-24 Volt DC or 24 Volt AC (+/-15%, 50/60 Hz) NOTE for American market: Conforming Underwriters Laboratories UL 2108 standard regulations use a Class 2 Power Supply Unit. +50 C [122 F] to -40 C [-40 F] max on full power Environmental IP66, suitable for indoor / outdoor use Construction Dimensions Color Weight Power cable Bracket Robust aluminum extrusion with acrylic front window 303mm x 239mm x 110mm [11.9 x 9.4 x 4.4 ] including mounting bracket Black anodized heat sink with black front fascia 3.8 Kg [8.4 lbs] Supplied with 4m [13.1ft] of power lead. Wall mount bracket included Accessories Power supply Bosch PSU-224-DC100. Other compatible power supplies may be used, make sure the above voltage, power and inrush current requirements are met. 5
Lens / Beam pattern The illuminator should be matched to the scene and the camera lens focal length. Before installation, ensure that the illuminator has been correctly specified to support the CCTV system. The system planning must take into account the product achievable distances, lens/beam pattern and filter. Models and achievable distances Achievable illumination distance depends on the characteristics of the CCD camera and lens used. Commercial Type Number Wavelength Beam angle Achievable Distance Horizontal Field of View (HFOV) SLED10-8BD 850nm 10 320m [1050ft] 52m [170ft] SLED20-8BD 850nm 20 200m [655ft] 70m [230ft] SLED30-8BD 850nm 30 160m [525ft] 85m [275ft] SLED60-8BD 850nm 60 110m [360ft] 130m [425ft] SLED95-8BD 850nm 95 85m [275ft] 185m [605ft] SLED120-8BD 850nm 120 55m [180ft] 190m [625ft] SLED10-9BD 940nm 10 200m [655ft] 32m [105ft] SLED20-9BD 940nm 20 120m [395ft] 42m [135ft] SLED30-9BD 940nm 30 90m [295ft] 47m [154ft] SLED60-9BD 940nm 60 65m [210ft] 75m [245ft] SLED95-9BD 940nm 95 45m [145ft] 100m [330ft] SLED120-9BD 940nm 120 30m [100ft] 110m [360ft] NOTE: Achievable distance is based on a 20dB s/n ratio using a ½ Ex-View CCD and F1.4 lens aperture. Wavelength at 850nm infrared is semi-covert and 940nm is covert. 6
3. INSTALLATION Tilt the illuminator gradually until the top of the unit is directed towards the top of the furthest object Fig 1: Installing the AEGIS SuperLED Setting up the unit correctly is critical to obtaining the best performance from the AEGIS illuminator. Optimum results are achieved by setting up at night and viewing the results on a monitor 1. Attach the AEGIS illuminator to the pan and tilt unit, wall bracket or camera housing as required 2. Connect the lamp to 12-24 Volt DC or 24 Volt AC (+/-15%, 50/60 Hz) 3. Commission the mains supply, camera and monitoring control equipment 4. Adjust the pan of the illuminator to match the camera field of view 5. Adjust the vertical alignment by loosening the side bolts (one on each side of the main body) to maximize the results 6. Tilt the lamp downwards until the near part of required field of view is saturated with light, as viewed on the monitor 7. Slowly tilt the lamp upwards until the far part of the required field of view is illuminated correctly on the monitor screen 7
Day/Night Camera Switching Output Telemetry Input Photocell Pressure Equalisation Vent Power Input 12-24 Volt DC or 24 Volt AC (+/- 15%, 50/60 Hz) Fig. 2: AEGIS SuperLED rear side view Photocell Sensitivity Adjustment Power Adjustment Fig. 3: AEGIS SuperLED right side view 8
Telemetry Input Connection Fig. 4 : Telemetry Input pin layout Camera Day/Night Switching Output Connection Fig. 5 : Camera Day/Night Output pin layout 9
Photocell sensitivity To adjust photocell sensitivity first remove the IP66 sealing cap, then adjust the potentiometer to turn the lamp on at the desired lighting conditions. Turn clockwise to increase photocell sensitivity Remove sealing cap for access to photocell adjustment potentiometer. NOTE: Replace cap after adjustment to ensure IP66 protection Photocell will switch lamp ON earlier (at higher light levels) Photocell will switch lamp ON later (at lower light levels) Fig 6: Adjustment of the photocell sensitivity Disabling the photocell Turn the photocell fully clockwise to disable the photocell. The lamp will remain on all the time unless the telemetry input is closed circuit. Photocell operation The photocell is designed to automatically switch the lamps ON at dusk and turn OFF at dawn. A high degree of hysteresis is incorporated to avoid ON/OFF switching in marginal light conditions. Potentiometer factory-set at mid-point 500 Lux ON and 850 Lux OFF (approx.) Power adjust To adjust power first unscrew the sealing cap. The potentiometer is set at the maximum calibration point (fully clockwise). To decrease the power turn the potentiometer counter clockwise. Remove sealing cap for access to photocell adjustment potentiometer. NOTE: Replace cap after adjustment to ensure IP66 protection Power reduction Fig 7: Adjustment of the output power 10 Hi Note: Power can be reduced by up to 85% if image over-exposure occurs. Below 85% reduction the LED s will oscillate. Factory-set at 100% power rating, potentiometer turned fully clockwise.
4. SAFETY WARNING: When the lamp is running it is hot to touch. Before touching, switch off the illuminator and allow cooling for a minimum period of 10 minutes. CAUTION: Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. Class 3R notification for 850nm models The product is tested and compliant to IEC/EN 60825-1 (2001) under normal operating conditions, and is classified as a Class 3R LED product. The measured output under the thermal hazard test (Class 1/3R) was 36.9mW, peak at 850nm wavelength. The following notification label is placed on the side of the product. Class 1M notification for 940nm models The product is tested and compliant to IEC/EN 60825-1 (2001) under normal operating conditions, and is classified as a Class 1M LED product. The measured output under the thermal hazard test (Class 1M) was 22.7mW, peak at 940nm wavelength. No notification label is placed on the product. LED radiation Do not view directly with optical instruments (magnifiers). Do not stare directly into the lamp from a distance of less than 1.7m. 11
5. DIMENSIONS Fig 8: Dimensions 12
6. REMOTE SWITCHING Various switching configurations can be made using an interface cable. Commonly used switching configurations are explained below. Camera (or other switching device) leading The illuminator may be activated remotely by a volt-free contact latched across the TELEMETRY input. Use interface cable (UFLED-CI-5M). Illuminator Camera UFLED-CI-5M Looping multiple illuminators Multiple illuminators can be linked for synchronous illuminator switching. Use link cable (UFLED-CL-1M) between the DAY/NIGHT CAMERA output and the TELEMETRY input as shown in the diagram below. Illuminator 3 Illuminator 2 Illuminator 1 Camera UFLED-CL-1M UFLED-CL-1M UFLED-CI-5M Illuminator leading The DAY/NIGHT CAMERA output may be used to switch the camera between the Day and Night mode. Use interface cable (UFLED-CI-5M). Illuminator Camera UFLED-CI-5M 13
7. TROUBLE SHOOTING CHECK POWER SUPPLY Check that the unit is connected to a suitable voltage CHECK PHOTOCELL FUNCTIONS Check the photocell functions by covering with black tape and having the telemetry link closed. The photocell operation has an in-built delay of up to 5 seconds 8. CERTIFICATION Standards applied: This product complies with European Directive 2004/108/CE Electromagnetic Compatibility and 73/23/EEC Low Voltage Directive by meeting the following standards SAFETY: Electrical Safety: IEC/EN60598-2-5 C22.2 No.250.0-08 UL1598 UL2108 Laser Eye Safety: IEC/EN60825-1 EMC: Radiated and Conducted Emissions: EN55022: 1998 ICES-003 Issue 4: 2004 Immunity: EN50130-4:1995 FCC: CFR 47:2007 PART 15.107 & 15.109 CLASS B LIMIT IP: Ingress Protection IP66 in accordance with BS EN60529:1992 WEEE: Waste Electrical & Electronic Equipment European directive 2002/96/EC This symbol on the product or in the instructions means that the electrical and/or electronic equipment to which it relates should be disposed of at the end of life separately from domestic household waste. There are separate collection systems for recycling in the EU For more information, please contact the Local Authority or supplier of the product 14
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Americas Europe, Middle East, Africa Asia-Pacific Bosch Security Systems Ltd Bosch Security Systems B.V. Bosch Security Systems Pte Ltd 850 Greenfield Road PO Box 80002 11 Bishan Street 21 Lancaster, Pennsylvania 17607 5600 JB Eindhoven Singapore 573943 USA The Netherlands Singapore Tel: +1 888 289 0096 Tel: +31 40 2577 284 Tel: +65 6258 5511 Fax: +1 585 223 9180 Fax: +31 40 2577 330 Fax: +65 6258 4671 security.sales@us.bosch.com emea.securitysystems@bosch.com apr.securitysystems@bosch.com 2010 Bosch Security Systems, data is subject to change without notice. INST-177 Rev11 16